Stool with telescopic legs

ABSTRACT

A stool with telescopic legs, comprising a seat and four legs, wherein one end of said four legs are hinged to the seat, the two legs in a side are pivotally cross to other two legs in the other side respectively, and the two crossing joints are connected by a cross beam, and two parallel legs having the telescopic rod structure. When the stool is folded, the sliding rod of the telescopic rod structure of the two parallel legs slid out of the outer rod. Meanwhile, the seat of the stool fold downwards till four legs attached together completely. At this position, the seat of the stool attached to the legs completely too, thus the space engaged by the stool farthest saved. Moreover, because of the telescopic structure and the four legs of the folded stool is in a same height, the stool is more convenient to be placed, stored and transported. The structure of this invention is simple and easy to be manufactured.

FIELD OF THE INVENTION

The present invention generally relates to a stool and, more particularly, to a stool with telescopic legs.

BACKGROUND OF THE INVENTION

No matter at home, office or other places, stools are used for relaxing in daily life for their compact size and portability. And more, the foldable stools are being used more widely, because they has two states of collapsed position and open position, we can open it when we need to use it, and fold it to save space engaged when we need not use. This stool is portable and convenient to be transported.

There are two existing ways to fold the stool. One way is that the legs of the stool folded to the middle symmetrically, and the seat folded to the middle symmetrically too. The other one is, likes the foldable chair, both of the legs can be folded together, and then the seat folded close to the legs. After being folded in the first way above-mentioned, the height of two legs is almost the same. But as the seat is folded to the middle, the two legs can't be close enough. It still take much space and is inconvenient to arrange and stored. In the abovementioned second way, although the legs can close together well, and the seat can close to the seat furthest, but the height of the legs are different, the stools are inconvenient to be stored and transported.

Thus, we need a new kind of stool to obviate the afore-mentioned problems and defects.

SUMMARY OF THE INVENTION

To overcome the defects that the seat and the front legs can't close together well and the length of legs are different after the stool being folded, the present invention provides a stool with telescopic legs, herein two of legs having telescopic rods structure. When the stool is folded, the legs with telescopic rods can outstretch till the stool being folded completely. After being folded, the four legs has the same height and close together completely with each other, and the seat attached completely to the legs, by which the engaged space will be saved farthest and the stools are convenient to be arranged, stored and transported.

The object of the present invention is achieved by providing:

A stool with telescopic legs, comprising a seat and four legs, wherein one end of said four legs are hinged to the seat, the two legs in a side are pivotally cross to other two legs in the other side respectively, and the two crossing joints are connected by a cross beam, and two parallel legs having the telescopic rod structure.

Said seat of the stool can be a shape of circular, square, rectangle or ellipse.

Said seat of the stool is hinged to the legs through connecting piece mounted on the back of the seat of the stool by rivets.

Said telescopic rod bar structure includes: a hollow outer rod; a sliding rod which can slide inside the outer rod; and a screw thread connecting structure for fixing the sliding rod.

Said screw thread connecting structure includes: fixing apertures disposed both on the outer rod and the sliding rod; screws used for locking the fixing apertures, the sliding rod and the outer rod.

Said sliding rod is hinged to the connecting piece mounted on the back of the seat of the stool by riveting.

The length of said sliding rod is a little longer than the distance between the cross beam to the connecting piece.

A cross bar is disposed between the lower portions of said two legs with telescopic rod structures.

Another cross bar is disposed between the lower portions of said other two legs without telescopic rod structures.

Said cross bars are in a same height of the legs. i.e. the distance between the cross bar to the ends opposite to the seat of the legs with telescopic rod structure, is the same as the distance between another cross bar to the ends opposite to the seat of another two legs without telescopic rod structures.

Advantages: A stool with telescopic legs, two parallel legs having the telescopic rod structures, when the stool is in use, the sliding rod of the telescopic rod structure of the two parallel legs is fixed in the outer rod. When the stool is folded, the sliding rod of the telescopic rod structure of the two parallel legs slide out of the outer rod. Meanwhile, the seat of the stool fold downwards till four legs attached together completely. At this position, the seat of the stool attached to the legs completely too, thus the space engaged by the stool farthest saved. Moreover, because of the telescopic structure and the four legs of the folded stool is in a same height, the stool is more convenient to be placed, stored and transported. The structure of this invention is simple and easy to be manufactured, and the space engaged by the folded stool can also furthest saved.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be described with greater specificity and detail through the use of the accompanying drawings and detailed embodiment, in which:

FIG. 1 is perspective view of the stool in an unfolded in-use position in a preferred embodiment of the present invention.

FIG. 2 is a side view of f the stool in an unfolded in-use position in a preferred embodiment of the present invention.

FIGS. 3 and 4 are side views of the stool in a position of between folded and unfolded, and a position of folded respectively, in a preferred embodiment of the present invention.

FIG. 5 is the front view of the stool in a folded position in a preferred embodiment of the present invention.

In these figures:

-   1 the seat of the stool 21, 22, 23, 24 the legs of the stool -   11 connecting piece 211, 231 outer rods 213, 233 fixing apertures -   3 cross beam 4, 5 cross bars

DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the following embodiment of the present invention, the stool is with a circular seat, without limitation, the seat with other shapes is also usable. Referring to FIG. 1 and FIG. 2, which are perspective view and side view of the stool in unfolded position in the embodiment respectively. a stool with telescopic legs includes: a seat 1; four legs 21, 22, 23, 24; the seat 1 hinged to the legs 21, 22, 23, 24 through the connecting piece 11 disposed on the back of the seat 1 via rivets; the legs 21, 22, 23, 24 make displacement with the seat 1. The legs 21, 22 are pivotally cross to each other and the legs 23, 24 are pivotally cross to each other also, the two crossing point are connected by a cross beam 3. The legs 21, 23 are parallel with each other, as well as the legs 22, 24. A crossbar 5 disposed between the lower portions of legs 21 and 23 to connect the leg 21 with leg 23, the crossbar 5 mounted on the surface of the leg 21 and 23. A crossbar 4 disposed between leg 22 and 24 to connect the leg 22 with leg 24, the cross bar 4 inserted in the leg 22 and 24. The distance between the cross bar 5 and the ends of legs 21 and 23 opposite to the seat, is the same as the distance between the cross bar 4 and the ends of legs 22 and 24 opposite to the seat, i.e. the cross bar 4 and the bar 5 are parallel, and they are at the same position of the legs 21, 23 and the legs 22, 24, and they will be closed together when the stool is folded. legs 21, 23 having structures of telescopic rod, which are shown clearly in FIG. 2. The telescopic rod structures of the legs 21 includes: a hollow outer rod 211; a sliding rod 212, which can slide inside the outer rod 211; a screw thread connecting structure, which is used to fix the sliding rod 212.

The screw thread connecting structure includes: the fixing apertures 213 disposed both on the outer rod and the sliding rod, and the screws used for locking the fixing apertures, the sliding rod and the outer rod. The sliding rod 212 can be slid in the outer rod 211 by adjusting the fixing apertures 213 and the screws. The length of sliding rod 212 is a little longer than the length of the leg 21 from the cross beam 3 to the connecting piece 11 on the seat, and the sliding rod 3 is inside the portion of the outer rod 211 which is upper to the cross beam 3. The leg 21 is hinged to the connecting piece 11 via the outer rod 212. FIG. 2 is a view from the side of the legs 21, 22, so the legs 23, 24 can not be seen. Because the structures of 21, 22 are the same as 23, 24 respectively, so the structures of the legs 23, 24 are not described repeatedly herein. Moreover, the shape of the seat 1 can be circular, square, rectangle or elliptic.

FIG. 3 and FIG. 4 are side views of the stool in a position of between folded and unfolded, and a position of folded respectively. Referring to FIG. 3, when the stool is to be folded, the sliding rod 212 in the leg 21 can be adjusted by the fixing apertures 213 and the screws, then the sliding rod 212 slid out of the outer rod 211 upwards. thus the leg 22 closed to the leg 21 gradually, and the seat 1 folded downwards, because the seat 1 is hinged to the legs 21 and 22, and the connecting piece 11 is hinged to the leg 22. FIG. 4 is the side view of the completely folded stool, as shown in FIG. 4, when the stool is folded completely, the seat 1 completely attach to the legs 21, 22, and the legs 22 completely attach to the legs 21. So only the leg 21, the cross bar 5 on the surface of the leg 21 and 23, and the seat 1 can be seen from this side view. The sliding rod 212 can be adjusted to the position as far as it can slide in the outer rod 211, i.e. it is far away from the cross beam 3, which is the furthest position to the cross beam 3. In this state, the stool is in a folded position. After been folded, the engaged space by the stool is decreased markedly, and because the length of the legs 21 and 22 are the same, the stool is convenient to be arranged, placed, stored and transported. the structures of 23, 24 are the same as the legs 21, 22, so they are not described repeatedly herein.

FIG. 5 is the front view of completely folded stool in the present embodiment, in the figure, we can see the seat 1, four legs 21, 22, 23, 24 hinged with the seat 1, a cross beam 3 and cross bar 5. In this folded state, the engaged space by the stool is decreased markedly, and because the length of the legs 21 and 22 are the same as the legs 21, 22, the stool is convenient to be placed.

In summary, the structure of the stool with the telescopic legs of the present invention is simple and easy to manufactured, and the engaged space by the folded stool is decreased markedly, it's very convenient to place, collect and transport the stool, and the stool can be used widely.

The foregoing description of a preferred embodiment of the present invention has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form disclosed. All variations and modifications made in accordance with the patent application and the specification of the present invention, are within the scope of the present invention. 

1. A stool with telescopic legs, comprising a seat and four legs, wherein one end of said four legs are hinged to the seat, the two legs in a side are pivotally cross to other two legs in the other side respectively, and the two crossing joints are connected by a cross beam, and two parallel legs having the telescopic rod structure.
 2. The stool with telescopic legs according to claim 1, wherein said seat of the stool is circular, square, rectangle or ellipse.
 3. The stool with telescopic legs according to claim 1, wherein said seat of the stool is hinged to the legs through connecting piece mounted on the back of the seat of the stool by rivets.
 4. The stool with telescopic legs according to claim 1, wherein said telescopic rod structure includes: a hollow outer rod; a sliding rod which can slide inside the outer rod; and a screw thread connecting structure for fixing the sliding rod.
 5. The stool with telescopic legs according to claim 4, wherein said screw thread connecting structure includes: fixing apertures disposed both on the outer rod and the sliding rod; screws used for locking the fixing apertures, the sliding rod and the outer rod.
 6. The stool with telescopic legs according to claim 4, wherein said sliding rod is hinged to the connecting piece mounted on the back of the seat of the stool by riveting.
 7. The stool with telescopic legs according to claim 4, wherein the length of said sliding rod is a little longer than the distance between the cross beam to the connecting piece.
 8. The stool with telescopic legs according to claim 1, a cross bar is disposed between the lower portions of said two legs with telescopic rod structures.
 9. The stool with telescopic legs according to claim 1, wherein a cross bar is disposed between the lower portions of said other two legs without telescopic rod structures.
 10. The stool with telescopic legs according to claim 8, wherein the distance between the cross bar to the ends opposite to the seat of the legs with telescopic rod structure, is the same as the distance between another cross bar to the ends opposite to the seat of another two legs without telescopic rod structures.
 11. The stool with telescopic legs according to claim 6, wherein the length of said sliding rod is a little longer than the distance between the cross beam to the connecting piece.
 12. The stool with telescopic legs according to claim 9, wherein the distance between the cross bar to the ends opposite to the seat of the legs with telescopic rod structure, is the same as the distance between another cross bar to the ends opposite to the seat of another two legs without telescopic rod structures. 